Methods, circuits, and apparatus for motion detection, doppler shift detection, and positioning by self-envelope modulation

1. A method for detecting motion of an object in an environment, comprising: transmitting a first wireless signal related to a transmission signal and receiving a second wireless signal related to an incoming signal, wherein: the transmission signal is a continuous wave signal, transmitting the first wireless signal includes transmitting the first wireless signal based on an output signal provided by a power amplifier, and the second wireless signal is a reflected first wireless signal from the object; obtaining a modulation signal by combining the continuous wave signal and the incoming signal, wherein the modulation signal contains a Doppler shift caused by the motion of the object; extracting a signal envelope varied by the Doppler shift from the modulation signal; determining whether a first signal level of the signal envelope exceeds a first predetermined threshold and a second signal level of the signal envelope is lower than a second predetermined threshold, the first predetermined threshold being higher than the second predetermined threshold; and responsive to a determination that the first signal level of the signal envelope exceeds the first predetermined threshold and the second signal level of the signal envelope is lower than the second predetermined threshold, determining detection of the motion of the object.

2. The method of claim 1, wherein the transmission signal is an input signal of the power amplifier, wherein the output signal provided by the power amplifier is configured to be applied to an antenna to transmit the first wireless signal.

3. The method of claim 1, wherein extracting the signal envelope varied by the Doppler shift from the modulation signal comprises: rectifying the modulation signal; and filtering the rectified modulation signal.

4. The method of claim 1, wherein obtaining the modulation signal comprises: modulating the incoming signal by the continuous wave signal; or modulating the continuous wave signal by the incoming signal.

5. The method of claim 1, wherein the output signal is provided by the power amplifier to a circulator and obtaining the modulation signal comprises: degrading the transmission signal by a leakage path of the circulator, and adding the degraded transmission signal with the incoming signal using the circulator.

6. The method of claim 1, further comprising: obtaining a control signal from a transmitter that generates the transmission signal; and determining whether the Doppler shift is detected in accordance with the signal envelope and the control signal.

7. The method of claim 6, wherein the modulation signal is a first modulation signal, and the signal envelope is a first signal envelope, the method further comprising: determining to extract one of the first signal envelope or a second signal envelope varied by the Doppler shift in accordance with the control signal; responsive to determining to extract the second signal envelope, obtaining a second modulation signal, and extracting the second signal envelope from the second modulation signal; and determining whether the Doppler shift is detected in accordance with the control signal and the one of the first or second signal envelope.

8. The method of claim 7, wherein the incoming signal is a first incoming signal, and obtaining the second modulation signal comprises: combining a source signal and a second incoming signal to obtain the second modulation signal, wherein: the source signal is obtained from an oscillator, and the second incoming signal is obtained from the second wireless signal.

9. The method of claim 1, wherein the incoming signal is a first incoming signal, the second wireless signal is a first reflected first wireless signal from the object, adding the transmission and first incoming signals provides a sensed signal, and obtaining the modulation signal comprises: combining the sensed signal and a second incoming signal to obtain the modulation signal, wherein the second incoming signal is obtained from a third wireless signal, the third wireless signal being a second reflected first wireless signal from the object.

10. The method of claim 9, comprising: amplifying the second incoming signal, wherein combining the sensed and second incoming signals includes: combining the sensed signal and the amplified second incoming signal to obtain the modulation signal.

11. The method of claim 9, wherein the modulation signal is a first modulation signal, the signal envelope is a first signal envelope, and the Doppler shift is a first Doppler shift, the method further comprising: shifting a phase of the sensed signal; obtaining a second modulation signal by combining the phase-shifted sensed signal and the second incoming signal; extracting a second signal envelope varied by a second Doppler shift from the second modulation signal; and determining whether motion of the object is detected in accordance with the first and second signal envelopes.

12. The method of claim 1, wherein: the transmission signal is an input signal of a radio frequency circuit, the radio frequency circuit comprising the power amplifier, wherein an output signal of the radio frequency circuit is applied to a first antenna port for transmitting the first wireless signal; and the incoming signal is obtained from the second wireless signal via a second antenna port.

13. The method of claim 12, wherein the modulation signal is a first modulation signal, the signal envelope is a first signal envelope, and the Doppler shift is a first Doppler shift, the method further comprising: obtaining a second modulation signal by combining a source signal and the incoming signal, wherein the source signal is obtained from an oscillator; extracting a second signal envelope varied by a second Doppler shift from the second modulation signal; and determining whether motion of the object is detected in accordance with the first and second signal envelopes; wherein the transmission signal is an in-phase signal, and the source signal is a quadrature signal.

14. The method of claim 12, wherein the modulation signal is a first modulation signal, the signal envelope is a first signal envelope, and the Doppler shift is a first Doppler shift, the method further comprising: shifting a phase of the transmission signal; obtaining a second modulation signal by combining the phase-shifted transmission signal and the incoming signal; extracting a second signal envelope varied by a second Doppler shift from the second modulation signal; and determining whether motion of the object is detected in accordance with the first and second signal envelopes.

15. The method of claim 9, wherein: the modulation signal is a first modulation signal, the Doppler shift is a first Doppler shift, and the signal envelope is a first signal envelope, the method further comprising: extracting a second signal envelope varied by a second Doppler shift from the sensed signal; and determining whether motion of the object is detected in accordance with the first and second signal envelopes.

16. The method of claim 15, further comprising: determining a phase difference between the first and second signal envelopes; and determining a direction of the object based on the phase difference; wherein the first incoming signal is received via a first antenna port; and the second incoming signal is received via a second antenna port.

17. The method of claim 9, wherein: the modulation signal is a first modulation signal, the Doppler shift is a first Doppler shift, and the signal envelope is a first signal envelope, the method further comprising: combining the sensed signal and a third incoming signal to obtain a second modulation signal, wherein the third incoming signal is obtained from a fourth wireless signal, the fourth wireless signal being a third reflected first wireless signal from the object; extracting a second signal envelope varied by a second Doppler shift from the second modulation signal; and determining whether motion of the object is detected in accordance with the first and second signal envelopes.

18. The method of claim 17, further comprising: determining a phase difference between the first and second signal envelopes; and determining a direction of the object based on the phase difference; wherein the first incoming signal is received via a first antenna port; the second incoming signal is received via a second antenna port; and the third incoming signal is received via a third antenna port.

19. A circuit for detecting motion of an object in an environment, comprising: a transmission chain configured to transmit a first wireless signal related to a transmission signal, the transmission chain including a power amplifier, wherein the transmission signal is a continuous wave signal; a sensing circuit configured to obtain a modulation signal by combining the continuous wave signal and an incoming signal, wherein: the modulation signal contains a Doppler shift caused by the motion of the object, and the incoming signal is obtained from a second wireless signal, the second wireless signal being a reflected first wireless signal from the object; an envelope extraction circuit configured to extract a signal envelope varied by the Doppler shift from the modulation signal; and a detector circuit configured to: determine whether a first signal level of the signal envelope exceeds a first predetermined threshold and a second signal level of the signal envelope is lower than a second predetermined threshold, the first predetermined threshold being higher than the second predetermined threshold; and responsive to a determination that the first signal level of the signal envelope exceeds the first predetermined threshold and the second signal level of the signal envelope is lower than the second predetermined threshold, determine detection of the motion of the object.

20. A circuit for detecting motion of an object in an environment, the circuit comprising: a transmission chain including a power amplifier, a sensing circuit, and a single antenna coupled together, the transmission chain configured to transmit, by the single antenna, a first wireless signal related to a transmission signal, wherein: the transmission signal is a continuous wave signal; the single antenna is configured to receive a second wireless signal as an incoming signal, the second wireless signal being a reflected first wireless signal from the object; and the sensing circuit is configured to obtain a modulation signal by combining the continuous wave signal and the incoming signal, wherein the modulation signal contains a Doppler shift caused by the motion of the object; an envelope extraction circuit configured to extract a signal envelope varied by the Doppler shift from the modulation signal; and a detector circuit configured to: determine that a signal level of the signal envelope exceeds a predetermined threshold; and responsive to the determination that the signal level of the signal envelope exceeds the predetermined threshold, determine detection of the motion of the object.